Multistage Horizontal Wells Refracturing by Means of Abrasive Jet Perforation + Frac Technology

Day 3 Thu, September 24, 2020 Pub Date : 2020-09-22 DOI:10.2118/203892-ms

Rustam Shaykamalov, M. Gaponov, M. Mukhametshin, V. Bildanov, A. Katermin, I. Bashirov

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引用次数: 1

Abstract

Since 2015, the technology of multistage fracturing (hereinafter MSHF) in horizontal wells has become widespread in Bashneft-Dobycha's fields. MSHF applies to newly-drilled and side-tracked wells (hereinafter ST wells). To date, more than 100 multifracked wells have been put on stream. The post-MSHF well productivity decreases over time because of the degrading fracture conductivity and depletion of the reserves in the earlier stimulated zones. The most effective method to restore well productivity is refracturing, which was proven in directional wells. For refracturing, the assemblies that contain frac sleeves activated by dropping the balls of various diameters are mostly used. For openhole isolation of intervals, annular hydraulic-set packers are normally used, without cementing a horizontal borehole section. The application of these MSHF assemblies makes it difficult to further perform interval-wise refracturing. The challenging factors include multiple open intervals after performing all the frac stages and the tight hole in the sleeve intervals, even if milled. One of the refracturing methods tested in Bashneft-Dobycha's horizontal wells was ‘blind’ fracturing. This is the most easy-to-use method, which is not time-consuming either. The effect of these jobs was low, as the most depleted intervals were refractured. In 2019, a combined technology of abrasive jet perforation and subsequent refracturing through an abrasive jet perforating tool (abrasive jet perforation + fracturing) was proposed for multifractured horizontal wells. The application of the abrasive jet perforation + frac technology allowed for successful selective re-injection of acid and proppant into the selected intervals of the horizontal borehole. By now, Bashneft-Dobycha has refractured 10 multistage horizontal wells by means of the abrasive jet perforation + frac technology. One trip included three refrac stages maximum. All the treatment were successful, substantially increasing well productivity indices.

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磨料射流射孔+压裂技术多级水平井重复压裂

2015年以来，水平井多级压裂技术(以下简称MSHF)在Bashneft-Dobycha油田得到了广泛应用。MSHF适用于新钻和侧钻井(以下简称ST井)。迄今为止，已有100多口多轨井投产。随着时间的推移，由于裂缝导流能力下降和早期增产层的储量枯竭，mshf后的油井产能会下降。重复压裂是恢复油井产能最有效的方法，在定向井中得到了验证。对于重复压裂，通常使用包含压裂滑套的组合，这些压裂滑套可以通过投下不同直径的压裂球来激活。对于裸眼段的隔离，通常使用环空水力坐封封隔器，而不需要在水平井段进行固井。这些MSHF组合的应用使得进一步进行分段重复压裂变得困难。具有挑战性的因素包括在完成所有压裂段后的多个开放段，以及滑套段的紧孔，即使是磨铣。在Bashneft-Dobycha的水平井中测试的重复压裂方法之一是“盲压裂”。这是最容易使用的方法，也不耗时。这些作业的效果很低，因为最枯竭的段段是重复压裂的。2019年，针对多裂缝水平井，提出了一种通过磨料射流射孔工具(磨料射流射孔+压裂)进行磨料射流射孔和后续重复压裂的组合技术。磨料射流射孔+压裂技术的应用使得酸和支撑剂能够成功地选择性地重新注入到水平井眼的选定段。到目前为止，bashnet - dobycha已经利用磨料射流射孔+压裂技术对10口多级水平井进行了重复压裂。一次起下钻最多包括三个压裂段。所有的处理都是成功的，大大提高了井的产能指数。

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Day 3 Thu, September 24, 2020

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